Ahmadi, K., Banaee, M., Vosoghei, A. R., Mirvaghefei, A. R., Mirvaghefei, A. R., & Ataeimehr, В. (2012). Evaluation of the immunomodulatory effects of sily-marin extract (Silybum marianum) on some immune parameters of rainbow trout Oncorhynchus mykiss (Actinopterygii, Salmoniformes, Salmonidae). Acta Ichthyologica et Piscatoria, 42(2), 113–120.

Ajadi, A., Jibril, A. J., & Emikpe, B. (2022). Evaluation of growth, haematological, biochemical and oxidative stress parameters of Clarias gariepinus fed with Als-tonia boonei and Mitracarpus scaber. Aquaculture Studies, 22, AQUAST883.

Alagawany, M., Taha, A., Noreldin, A., Tarabily, K., & Hack, M. (2021). Nutritional applications of species of Spirulina and Chlorella in farmed fish: A review. Aquaculture, 542, 736841.

Antache, A., Cristea, V., GrecuI, L., Dediu, L., Cretu, M., & Petrea, M. (2014). The influence of some phytobiotics on hematological and some biochemical indices of Oreochromis niloticus. Animal Science and Biotechnologies, 47(1), 192–199.

Ashley, P. J. (2006). Fish welfare: Current issues in aquaculture. Applied Animal Behaviour Science, 104, 199–235.

Bekh, V., Martseniuk, V., & Tushnytska, N. (2000). Perspektyvy vykorystannia bilkovykh komponentiv netradytsiinoho pokhodzhennia v kombikormakh dlia akvakultury (Ohliad) [Outlook of using protein components of non‐traditional origin in aquaculture feeds (Review)]. Fisheries Science of Ukraine, 52, 53–64 (in Ukrainian).

Borquez, A., Serrano, E., Dantagnan, P., Carrasco, J., & Hernandez, A. (2011). Feeding high inclusion of whole grain white lupin (Lupinus albus) to rainbow trout (Oncorhynchus mykiss): Effects on growth, nutrient digestibility, liver and intestine histology and muscle fatty acid composition. Aquaculture Research, 42, 1067–1078.

Cho, C. Y., Slinger, S. J., & Bayley, H. S. (1982). Bioenergetics of salmonid fishes: Energy intake, expenditure and productivity. Comparative Biochemistry and Physiology. Comparative Biochemistry, 73(1), 25–41.

Collins, S., Øverland, M., Skrede, A., & Drew, M. (2013). Effect of plant protein sources on growth rate in salmonids: Meta-analysis of dietary inclusion of soybean, pea and canola/rapeseed meals and protein concentrates. Aquaculture, 400(401), 85–100.

Damodaran, A., Sebastian, J. M., Sheeja, C. C., Ashuthosh, K. M., & Lekha, D. (2023). Probiotics and prebiotics in aquaculture. Chapter 9. In: Jyothis, M., Midhun, S., Radhakrishnan, E., & Ajay, K. (Eds.). Recent advances in aquaculture microbial technology. Academic Press, Kerala. Pp. 209–226.

Dehtiarov, P. A., Yevtushenko, M. Y., & Sherman I. M. (2008). Fiziolohiia ryb [Physiology of fish]. Ahrarna Osvita, Kyiv (in Ukrainian).

Gould, D., Compagnoni, A., & Lembo, G. (2019). Organic aquaculture: Impacts and future developments. In: Lembo, G., & Mente, E. (Eds.). Organic aquaculture. Springer International Publishing, Bari. Pp. 1–22.

Grath, J. C., Drummond, G. B., Lachlan, E. M., Mclachlan, E. M., Kilkenny, C. L., & Wainwright, C. L. (2010). Guidelines for reporting experiments involving animals; the ARRIVE guidelines. British Pharmacological Society Journals, 160(7), 1573–1576.

Hajen, W. E., Higgs, D. A., Beames, R. M., & Dosanjh, B. S. (1993). Digestibility of various feedstuffs by post-juvenile chinook salmon (Oncorhynchus tshawyt-scha) in sea water. Measurement of digestibility, Aquaculture, 112(4), 333–348.

Hakim, A. R., Wullandari, P., Zulfia, N., Widianto, T. N., & Sedayu, B. B. (2021). Inclusion of spirulina in floating fish feed produc-tion: protein and physical quality. Aquaculture Studies, 21, 161–167.

Honcharova, O. V., & Tushnytska, N. I. (2018). Fiziolohichne obgruntuvannia vykorystannia netradytsiinoho metodu pererobky syrovyny v akvakulturi [Physiological explanation for using an unconventional method for processing feed material in aquaculture]. Fisheries Science of Ukraine, 43, 54–64 (in Ukrainian).

Honcharova, O. V., Sekiou, O., & Kutishchev, P. S. (2021). Fizioloho-biokhimichni aspekty adaptatsiino-kompensatornykh protsesiv hidrobiontiv za dii tekhnolohichnykh faktoriv [Physiological and biochemical aspects of adaptation and compensatory processes of the organism of hydrobionts under the influence of technological factors]. Fisheries Science of Ukraine, 58, 101–114 (in Ukrainian).

Honcharova, O., & Bekh, V. (2023). Adaptive solutions in aquaculture under the influence оf transformation of abiotic and biotic factors. European Science, 16(3), 58–64.

Honcharova, O., & Sherman, I. (2023). Dictionnaire explicatif d’ichtyologie ukrai-nien-français. Deuxième édition révisée. Altergraf Édition, Bayonne.

Honcharova, O., Kutishchev, P., & Korzhov, Y. A. (2020). Method to increase the viability of Cyprinus сarpio (Linnaeus, 1758) stocking of the aquatories under the influence advanced biotechnologies. Aquaculture Studies, 21, 139–148.

Koryliak, M., Bernakevych, O., Dobrianska, O., & Bobeliak, L. (2023). Diialnist’ systemy antyoksydantnoho zakhystu v orhanizmi molodi koropa pislia hoduvannia oliieiu roztoropshi pliamystoyi [Activity of the antioxidant protection system in the body of juvenile carp after feeding them with spotted thistle oil]. Fisheries Science of Ukraine, 66, 100–113 (in Ukrainian).

Kozij, M. S. (2009). Ocenka sovremennogo sostoyaniya gistologicheskoj tekhniki i puti usovershenstvovaniya izucheniya ihtiofauny [Assessment of the current state of histological technology and ways to improve the study of ichthyofauna]. Oldiplyus, Kherson (in Russian).

Nagappan, S., Das, P., Quadir, M. A., Thaher, M., Khan, S., Mahata, C., Al-Jabri, H., Vatland, A. K., & Kumar, G. (2021). Potential of microalgae as a sustainable feed ingredient for aquaculture. Journal of Biotechnology, 341, 1–20.

North, B. P., Turnbull, J. F., Ellis, T., Porter, M. J., Migaud, H., Bron, J., & Bromage, N. R. (2006). The impact of stocking density on the welfare of rainbow trout (Oncorhynchus mykiss). Aquaculture, 255, 466–479.

Nya, E. J., & Austin, B. (2009). Use of dietary ginger, Zingiber officinale Roscoe as an immunostimulant to control Aeromonas hydrophila infections in rainbow trout, Oncorhynchus mykiss (Walbaum). Journal of Fish Diseases, 32(11), 971–977.

Pivovarov, A., Mykolenko, S., & Honcharova, O. (2017). Biotesting of plasma-chemically activated water with the use of hydrobionts. Eastern-European Journal of Enterprise Technologies, 88, 44–50.

Ringø, E., Olsen, R. E., Gifstad, T. Ø., Dalmo, R. A., Amlund, H., Hemre, G.-I., & Bakke, A. M. (2010). Prebiotics in aquaculture: A review. Aquaculture Nutri-tion, 16(2), 117–136.

Sherman, I. M., & Honcharova, O. V. (2022). Ekoloho-fiziolohichni osnovy aklimatyzatsii hidrobiontiv [Ecological and physiological bases of acclimatization of hydrobionts]. Oldi+, Kherson (in Ukrainian).

Skov, P. V., Larsen, B. K., Frisk, M., & Jokumsen, A. (2011). Effects of rearing density and water current on the respiratory physiology and haematology in rainbow trout, Oncorhynchus mykiss at high temperature. Aquaculture, 319, 446–452.

Storey, K. B. (1996). Oxidative stress: Animal adaptations in nature. Brazilian Jour-nal of Medical and Biological Research, 29, 1715–1733.

Usman, U., Diyaware, M. Y., Hassan, M. Z., & Shettima, H. M. (2023). Effects of roselle (Hibiscus sabdariffa) seeds as a substitute for soya bean on growth and nutrient utilization of Clarias gariepinus (Burchell, 1822). Aquaculture Studies, 23(6), AQUAST1298.

Velichkova, K., Sirakov, I., & Stoyanova, S. (2020). Growth efficiency, biochemical blood parameters and meat quality of rainbow trout (Oncorhynchus mykiss W.), fed with supplement of sweet flag extract (Acorus calamus L.). Bulgarian Journal of Agricultural Science, 26(1), 180–185.

Yang, L., Hongmiao, C., Weihua, L., Shuwei, M., Guangwen, Q., Shaoxia, L., Shicheng, H., Changan, W., Danxiang, H., Ying, Z., & Hongbai, L. (2022). Physiological response of rainbow trout (Oncorhynchus mykiss) to graded le-vels of novel Chlorella sorokiniana meal as a single fishmeal alternative or combined with black soldier fly larval meal. Aquaculture, 561, 738715.

Yevtushenko, M. Y., & Khyzhniak, M. I. (2019). Metodolohiya naukovykh doslidzhen’ u rybnytstvi [Methodology of scientific research in fish farming]. Tsentr Navchalnoyi Literatury, Kyiv (in Ukrainian).

Zheltov, Y. Y., Oleksiyenko, O. O., & Grex, V. I. (2016). Vykorystannia deyakykh netradycijnykh kormiv v godivli riznovikovykh grup koropa [The use of some non-traditional feeds when feeding groups of different ages]. Fisheries Science of Ukraine, 1, 102–105 (in Ukrainian).

Zonghang, Z., Wuhan, L., Yunqi, L., Xianyu, Y., Xianqing, H., Hancheng, Z., Jiezhang, M., Jianqing, L., Liangliang, Y., Bo, L., Xiumei, Z., & Wenhua, L. (2023). Physical enrichment for improving welfare in fish aquaculture and fit-ness of stocking fish: A review of fundamentals, mechanisms and applications. Aquaculture, 574(1), 739651.